Tissue-specific populations from amniotic fluid-derived mesenchymal stem cells manifest variant in vitro and in vivo properties

IF 4.3 3区 生物学 Human Cell Pub Date : 2023-12-12 DOI:10.1007/s13577-023-01008-z
Nengqing Liu, Yi Cheng, Ding Wang, Hongmei Guan, Diyu Chen, Juan Zeng, Dian Lu, Yuanshuai Li, Yinghong Yang, Qian Luo, Lifen Zhu, Bin Jiang, Xiaofang Sun, Bing Song
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Abstract

Amniotic fluid derived mesenchymal stem cells (AFMSCs), shed along the fetal development, exhibit superior multipotency and immunomodulatory properties compared to MSCs derived from other somatic tissues (e.g., bone marrow and fat). However, AFMSCs display heterogeneity due to source ambiguity, making them an underutilized stem cells source for translational clinical trials. Consequently, there is an urgent need to identify a method to purify the AFMSCs for clinical use. We found that the AFMSCs can be categorized into three distinct groups: kidney-specific AFMSCs (AFMSCs-K), lung-specific AFMSCs (AFMSCs-L), and AFMSCs with an undefined tissue source (AFMSCs-X). This classification was based on tissue-specific gene expression pattern of single cell colony. Additionally, we observed that AFMSCs-X, a minority population within the AFMSCs, exhibited the highest multipotency, proliferation, resistance to senescence and immuno-modulation. Our results showed that AFMSCs-X significantly improved survival rates and reduced bacterial colony forming units (CFU) in cecal ligation and puncture (CLP)-induced septic mice. Therefore, our study introduces a novel classification method to enhance the consistency and efficacy of AFMSCs. These subpopulations, originating from different tissue source, may offer a valuable and innovative resource of cells for regenerative medicine purposes.

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羊水间充质干细胞的组织特异性群体表现出不同的体外和体内特性
羊水间充质干细胞(AFMSCs)在胎儿发育过程中脱落,与来自其他体组织(如骨髓和脂肪)的间充质干细胞相比,具有更高的多潜能和免疫调节特性。然而,由于来源不明确,AFMSCs 显示出异质性,使其成为转化临床试验中未充分利用的干细胞来源。因此,迫切需要找到一种方法来纯化AFMSCs,以供临床使用。我们发现,AFMSCs可分为三类:肾特异性AFMSCs(AFMSCs-K)、肺特异性AFMSCs(AFMSCs-L)和未确定组织来源的AFMSCs(AFMSCs-X)。这种分类基于单细胞集落的组织特异性基因表达模式。此外,我们还观察到,AFMSCs-X 是 AFMSCs 中的少数群体,具有最高的多能性、增殖性、抗衰老性和免疫调节性。我们的研究结果表明,AFMSCs-X 能显著提高小鼠的存活率,并降低小鼠因盲肠结扎和穿刺(CLP)引起的败血症的细菌菌落形成单位(CFU)。因此,我们的研究引入了一种新的分类方法,以提高 AFMSCs 的一致性和有效性。这些源自不同组织来源的亚群可为再生医学提供宝贵的创新细胞资源。
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来源期刊
Human Cell
Human Cell 生物-细胞生物学
CiteScore
6.60
自引率
2.30%
发文量
176
期刊介绍: Human Cell is the official English-language journal of the Japan Human Cell Society. The journal serves as a forum for international research on all aspects of the human cell, encompassing not only cell biology but also pathology, cytology, and oncology, including clinical oncology. Embryonic stem cells derived from animals, regenerative medicine using animal cells, and experimental animal models with implications for human diseases are covered as well. Submissions in any of the following categories will be considered: Research Articles, Cell Lines, Rapid Communications, Reviews, and Letters to the Editor. A brief clinical case report focusing on cellular responses to pathological insults in human studies may also be submitted as a Letter to the Editor in a concise and short format. Not only basic scientists but also gynecologists, oncologists, and other clinical scientists are welcome to submit work expressing new ideas or research using human cells.
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